Showing posts with label PLOS ONE. Show all posts
Showing posts with label PLOS ONE. Show all posts

Wednesday, May 29, 2013

SEED DISPERSAL AND ENVIRONMENTAL CONDITIONS IN AFRICAN FORESTS

Nouabale-Ndoki National Park in Central Africa, site of the scientists' research. Credit: Wikimedia Commons

FROM: NATIONAL SCIENCE FOUNDATION
Seeing the Forest for the Trees: Seed Dispersal, Environmental Conditions Matter in African Forests
Nouabale-Ndoki National Park is a tree-dotted enclave in Central Africa's Republic of Congo. Heavy logging surrounds the park, but it still has one of the largest intact forests in Africa. In recognition, it recently became a UNESCO World Heritage Site.

Trees--thousands of them--make up a forest. How did Nouabale-Ndoki's trees become so numerous, and how do they stay that way?

The answer, say biologists, lies far below the tree canopy, in the soil where seedlings sprout.

Today in the journal PLOS ONE, scientists report results of an extensive seedling experiment in Nouabale-Ndoki National Park.

The research, which involved sowing 40,000 seeds of five tree species, is a new look at "seeing the forest for the trees."

The findings, which show what limits seedling growth, are important to reforestation efforts in areas that have been logged.

Every tree can produce hundreds of thousands of seeds in its lifetime, but on average, only one seed survives to adulthood, says John Poulsen of Duke University, a co-author of the journal paper.

Other paper co-authors are Connie Clark, also of Duke, and Doug Levey, formerly of the University of Florida and now a program director in the National Science Foundation's (NSF) Division of Environmental Biology.

Which seeds have the best chance of making it to old age?

"There are basically two ways to look at successful seedling recruitment [survival]," says Levey. "Species may be seed-limited or establishment-limited."

A tree species is seed-limited if its ability to grow is determined by whether its seeds reach a particular location on the ground. The seeds may arrive on the wind or simply by falling from trees.

Establishment-limited trees are those that depend on the environment around them, rather than on seeds landing in just the right spot. If the soil is too wet or there is too much shade, a species is establishment-limited.

To test the importance of these two limitations on seedling recruitment, the scientists sowed tens of thousands of seeds.

They chose the species randomly, which allowed the results to be generalized to all tree species, not just the most common ones, says Poulsen.

The seeds were planted in different amounts in plots that stretched across an area the size of the state of Rhode Island.

Latter-day Johnny Appleseeds, the researchers couldn't do it alone, however.

"We hired a small army of indigenous, Mbendzélé hunter-gatherers," says Clark. "These families could easily locate seeds, and we were the beneficiaries of their intimate knowledge of the forest's natural history."

After the seeds were planted, the ecologists watched them grow into seedlings over two years.

They found that only a small fraction of seeds, some 16 percent, became seedlings. An even smaller amount, about six percent, survived to reach their second birthdays.

When numbers of seeds were at one end of a spectrum--rare or abundant--the trees' recruitment was seed-limited.

"When seeds were at intermediate densities," says Levey, "the chance of recruitment was influenced by environmental factors such as soil type and sunlight."

The importance of seed- and establishment-limitation changes over time, Levey says. "As individual trees get older, they need the correct soil and light exposure [become more establishment-limited]."

Not that different from our changing needs for the right nutrients and enough light as we reach our sunset years.

Monday, May 13, 2013

THE SPONGE AND THE CORAL REEF

Puff Sponge.  Credit:  Wikimedia.
FROM: NATIONAL SCIENCE FOUNDATION
Life on a Coral Reef: Insult Is (Sometimes) Added to Injury
When is insult added to injury for a Caribbean coral reef?

When overfishing removes predatory fish that feed on sponges, according to results reported this week in the journal PLOS ONE.

Using the undersea habitat Aquarius--moored on Conch Reef off Key Largo, Florida--marine scientist Joseph Pawlik of the University of North Carolina Wilmington (UNCW) and colleagues found that these predator-fish are the same brightly colored angelfish and parrotfish that attract scuba divers and glass-bottom boat tourists.

Pawlik is first author of the PLOS ONE paper; co-authors, all from UNCW, are Tse-Lynn Loh, Steven McMurray and Christopher Finelli.

Chemical warfare beneath the waves

The fish prey on sponges without chemical defenses--sponges missing what might be called the "yuk factor."

"Sponges that manufacture metabolites that are distasteful to fish are largely left alone," says Pawlik.

"That being said, when overfishing by humans removes these predatory fish, reefs shift toward faster-growing sponges that can out-compete reef corals for space.

"That further hinders corals' chances of recovery."

Coral cover on Caribbean reefs is at historic lows due to disease, heat stress from warming waters and waves from storms.

Undersea garden of sponges

"Coral reefs, especially in the Caribbean, have undergone many changes in the past few decades," says David Garrison, program director in the National Science Foundation's (NSF) Division of Ocean Sciences, which funded the research.

"With the decline of reef-building corals, sponges are becoming the main organisms on many reefs. These findings provide important information about interactions between sponges and predatory fish in coral reef communities."

Previous research showed that Caribbean sponge communities were primarily structured by the availability of plankton, or tiny floating plants and animals, rather than by predators.

But sponge growth experiments performed by Pawlik and colleagues--research that used cages to exclude predators--show the opposite.

"Overfished reefs that lack spongivores [sponge-eating fish] soon become dominated by faster-growing, chemically undefended sponge species, which better compete for space with reef-building corals," says Pawlik.

Endangered corals: threatened by 'new game in town'?

That has implications for fisheries management throughout the Caribbean.

"Some coral species are listed as critically endangered on the IUCN [International Union for Conservation of Nature] Red List, with four reef-building corals on the top ten list for risk of extinction."

Sponges are already overrunning certain coral reefs.

"As the effects of climate change and ocean acidification disrupt marine communities," says Pawlik, "it's likely that reef-building corals will suffer greater harm than sponges, which don't form at-risk limestone skeletons [as corals do]."

Hence, he believes, Caribbean reefs of the future are likely to be made up increasingly of sponges.

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